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Page 1: EFA_2015_Neuroarchitecture of Aging
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WELCOME

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The Neuroarchitecture of Aging and the “Sensthetic” Response

Upali Nanda PhD, EDAC, Assoc. AIA, Director of Research,

HKS

Angela Lee AIA, ACHA, EDAC, LEED AP

Zhe Wang, PhD, RA, EDAC, LEED AP BD+C

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CE InformationAIA - 23 Credit Hours available Have the room monitor scan your conference badge before leaving each session you

attend.

Keep a copy of the AIA CEU form for your records

EDAC - 9 Credit Hours available Certified Sessions: T01, T02, T03, E02, E04, E08, E09, E11, E17, E18, E20, E21, E22, E23,

E24, E25, E26, E27, E28, E29, E31, E32, E41, E43, E44, E45.

The pre-conference does not qualify for EDAC credit.

It is the candidate’s responsibility to self-submit the credits online

via Castle Worldwide Inc. Renewal notices with login instructions will be

sent from Castle six months and three months prior to the candidate’s renewal date.

Interior Designers - 23 Credit Hours available Have your Verification Form STAMPED by the room monitor.

This is the only proof of attendance that will be accepted as proof of completion

This is a self-reporting system.

Contact your interior design association that is responsible for monitoring mandatory

continuing education to fulfill membership requirements.

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Reminders New this year attendees will be able to fill in a session evaluation via the mobile app,

please go to mobile app. Please take a moment to fill out the session survey, which

can be accessed via the Mobile App:

Go to:

Find this session in the agenda

Click on the title to open the session

Click on “Session Survey” to access the survey.

To continue the conversation or to provide additional comments for this session, log

into the EFA Mobile App and search for this session. Post a comment in the

“CHATTER” section.

To access this presentation, log on to the EFA Mobile App, click on the session title

under “Agenda” and the presentation will be located under “Collateral”.

If you have CE questions, please refer to the program guide for specific instructions.

If you were not scanned in for this session, please see the room monitor.

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SessionDescriptionNeuroarchitecture is an emerging field. Understanding the aging brain and the impact of aging on sensory systems is key to developing responsive environments for the aging population. This presentation will look at cutting-edge research in the field of neuroscience and psycho-physiology and translate the research findings into design and architectural language that can be widely applied, thereby translating our “design response” that goes beyond the functional and the aesthetic, to the “sensthetic.”

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SessionLearningObjectives• Learn about the neuroscience literature on the aging brain.

• Learn about changes in the sensory systems and the link to brain behavior.

• Explore how all senses should be taken into account to design for a healthy brain.

• Learn about specific multisensory design strategies that could be employed, regardless of type of setting, to respond to the aging brain.

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The AgingBrainA “Sensthetic Model” – is a conceptual tool to think “across” modalities that can help professionals and students to design, study or experience sensory environments. It is a step beyond the aesthetics of appearance, towards a Sensthetics of Experience.

Nanda, 2008

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The AgingBrainAging is characterized by many changes that are reflected in the body, the various sensory systems, and most critically, the brain itself.

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The AgingBrain

As the brain ages there are fundamental changes which include changes in the prefrontal cortex (responsible for key cognitive functions) and the hippocampus (responsible for memory and emotional processing).

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The AgingBrainThe changes in the neurons and neurotransmitters, blood flow, and development of new cells, reflects in the ability to learn new things, remember names, perform complex tasks of attention etc.

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The AgingBrainHowever the brain, which is inherently plastic, compensates for it’s reduced ability in some areas by increasing abilities in others.

Research study results suggest that low-performing older adults recruited a similar network as young adults but used it inefficiently, whereas high-performing older adults counteracted age-related neural decline through a plastic reorganization of neurocognitive networks.

Cognitive Neuroscience, Duke University

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The AgingBrainThis ability for the brain to adapt and cope depends on lifestyle, overall health, environment and genetics.

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The AgingBrain

As designers we focus on the environment- however- it is important to remember that as the brain is changing, there are simultaneous changes in the sensory systems: hearing (hearing loss, change in equilibrium), vision (sharpness, focus, toleration for glare, differentiation between colors, peripheral vision), smell and taste (atrophy in taste buds, reduced smell/taste perception), and touch (change in sensation and sensory thresholds).

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The AgingBrainThis implies that if we want to create environments for aging that promote a healthy brain- and look at Neuroarchitecture as a field, our “design response” must go beyond the functional and the aesthetic, to the “sensthetic”.

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The AgingBrainIn this presentation we will share findings from a literature review on the aging brain and the aging changes in the senses. Work by the NIH on this topic will serve as a foundation

• http://www.nia.nih.gov/alzheimers/publication/part-1-basics-healthy-brain/changing-brain-healthy-aging

• http://www.nlm.nih.gov/medlineplus/ency/article/004013.htm

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Aging Changes the Senses As you age, the way your senses (hearing,

vision, taste, smell, touch) give you information about the world changes. Your senses become less sharp and you may have trouble telling apart details.

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Aging Changes the Senses

Your senses receive information from your environment. This information can be in the form of sound, light, smells, tastes, and touch. This information is converted to nerve signals and carried to the brain. There, it is turned into a meaningful sensation.

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Aging Changes the Senses

A certain amount of stimulation is required before you become aware of a sensation. This minimum level is called the threshold. Aging increases this threshold. So the amount of stimulation needed for you to be aware of the sensation becomes greater.

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The Changing Sensory System

All senses can be affected by aging, but hearing and vision are most affected.

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Cognitive Supply & Demand

http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2838968/

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VisualChallenges

You may be less able to tolerate glare. Glare such as from a shiny floor in a sunlit room can make it difficult to get around indoors. You may have trouble adapting to darkness or bright light

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VisualSolutions

As you age, it gets harder to tell apart blues and greens than it is to tell apart reds and yellows.

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VisualSolutions

Using warm contrasting colors (yellow, orange, and red) can improve your ability to see

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VisualSolutions

Keeping a red light on in darkened rooms, such as the hallway or bathroom, makes it easier to see than using a regular night light.

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VisualSolutions

Avoid Reflective Tiles especially in public lobby

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VisualSolutions

Create thoughtful “Home Like” Environment – Retro is not always the way

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VisualSolutions

Use color and patterns to direct.

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VisualSolutions

Organic, free form patterns.

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VisualSolutions

Use ceiling lights and different light levels and color to direct.

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Auditory and Motor / Balance Challenges

Our ears have two jobs. One is hearing and the other is maintaining balance.

As you age, structures inside the ear start to change and their functions decline. Your ability to pick up sounds decreases. You may also have problems maintaining your balance as you sit, stand, and walk.

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Motor performance deficits for older adults appear to be due to dysfunction of the central and peripheral nervous systems as well as the neuromuscular system. Motor performance deficits include coordination difficulty (Seidler et al., 2002), increased variability of movement (Contreras-Vidal et al., 1998; Darling et al., 1989), slowing of movement (Diggles-Buckles, 1993), and difficulties with balance and gait (Tang & Woollacott, 1996) in comparison to young adults.

The Brain And Balance

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Gait and balance problems are of particular interest as falls are a major source of injury and morbidity in older adults: 20-30% of older adults who fall suffer moderate to severe injuries that limit mobility and reduce quality of life (Alexander et al., 1992).

Older adults exhibit greater spatial and temporal movement variability, resulting in less consistent actions as compared to young adults (Contreras-Vidal et al., 1998; Cooke et al., 1989; Darling et al., 1989).

The Brain And Balance

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Approximately one-third of community-dwelling older adults fall each year; the rate is doubled in senior group dwellings (Gillespie et al., 2001; Jensen et al., 2002).

Even without injury, falls may cause a loss of self-confidence and result in reduced active behavior and increased dependency among older adults (Gallagher et al., 2001). Falls have been identified by the elderly as the most significant barrier to active behavior (Wilcox et al., 2003).

Risk for Falls

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Clear circulation/corridor systems should be applied in the building for older adults, as some of them may have memory impairment or suffer mental problems. Different function zones should be separated and applied with distinct design factors (e.g., colors and styles) to aid in place recognition.

Fall Prevention

Image source: aiatopten.org

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Corridors in the building for elderly people are suggested to be short, with uninterrupted visual destinations or environmental cues; short and clear corridors has been found to be more navigable for older adults than long corridors (AIA, 1985; Brawley, 1992; Goldsmith, 1996; Passini et al., 2000).

Fall Prevention

Image sources: www.thewatersseniorliving.com; faulknerdesign.com

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The location of utility/service rooms in residences for older adults should receive special attention. The laundry room should be located on the bedroom or bathroom level of the residence … (Haslam et al., 2001). The location of a storage room may depend on its function.

Fall Prevention

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The usefulness of grab bars for fall prevention has been recognized (Sattin et al., 1998). In addition, door handles or push bars, instead of knobs, should be installed in residences for older adults (Gilderbloom & Markham, 1996).

Fall Prevention

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Irregular floor surfaces should be avoided and hard-surface flooring are recommended as it improves standing balance and postural stability (Redfern et al., 1997; Thies et al., 2005).

High-density and low-pile commercial-grade carpeting has been suggested as a safe flooring material for healthy older adults (Dickinson et al., 2002).

Fall Prevention

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The bathroom has been identified by older adults and researchers as the most common site of environmental hazards (Carter et al., 1997; Huang, 2005). Besides slip-resistant floor surfaces, sliding glass shower doors should be avoided (Murphy et al., 2006). Walk-in shower stalls or bathtubs with rails, raised toilet seats, and wide clearances have been suggested for elderly users (Jenkins et al., 1997; Percival, 2002).

Fall Prevention

Image source: 4.bp.blogspot.com

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Regarding the kitchen design, adequate spaces facilitating different eating routines are preferred (Percival, 2002). Square-shaped kitchens may seem more spacious, compared to linear-shaped kitchens.

Boschetti (2002) recommended an L-shape layout for kitchens used by the elderly, as it affords a corner to lean against.

Fall Prevention

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Installing carefully designed stair handrails for stability is necessary; an appropriate height and a proper section size of the handrails should be applied.

-- closed risers, consistent riser heights, appropriate short riser and long tread, coarser tread surface textures.)

Fall Prevention

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An elevator or stair lift may promote independence when an individual becomes too disabled to use stairs, (Gilderbloom & Markham, 1996). However, Simoneau et al. (1999) found changes in stable visual anchors, as when exiting an elevator cage, may create risks for falls among older adults. This risk may be exacerbated by dim lighting in the elevator cage.

Fall Prevention

Image source: elevatorplanning.com uniqueelevator.com

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Lack of illumination appears to be related to poor postural stability among older adults and may induce risks for falls (Brooke-Wavell et al., 2002; De Lepeleire et al., 2007). Furthermore, changes in light levels should be smooth, as older adults need more time to adapt to changes in light levels than younger adults (Brabyn et al., 2000).

Fall Prevention

Image sources: docs.unrealengine.com; sundancelandscaping.com

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Regarding interior colors, unsaturated and washed-out colors should be avoided in the environments for older adults, as it is difficult for them to discriminate these colors and color confusion may result in falls (Brabyn et al., 2000). In addition, an appropriate contrast between colors of the wall and the floor, and floor surfaces at different levels emphasizes the edges of spaces and help older adults distinguish features of the environment.

Fall Prevention

Image source: sites.google.com/

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Visual spatial cues can help older adults with declining memory recognize places and respond to the surroundings. Sundermier, et al. (1996) noted that specially designed elements in the space can be used as cues by older adults while moving around and be helpful to prevent falls.

Fall Prevention

Image sources: idassociates.com; faulknerdesign.com

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Research by Perritt (2005) on carpet patterns showed that that high contrasting patterns were associated with more incidents (stumbles, reaching for handrail, veering, purposeful stepping, pausing, stopping) than carpeting with low color contrast patterns. Bonato and Bubka (2011) found that viewing high contrast static patterns (black and white squares laid out in regular patterns on a rug) can induce motion sickness. In a recent correlation study by Calkins (2012), it was found that vinyl flooring with medium size pattern (1”- 6”) was associated with greater falls than no pattern, small pattern (6”). These few studies suggest that floor glare and pattern may contribute to falls. However, the underlying relationship, and ideal condition for each, demands more research.”

Fall Prevention

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Auditory Solutions

Use sounds to direct.

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TactileChallenges

With aging, you may have reduced or changed sensations. These changes can be related to decreased blood flow to the nerve endings or to the spinal cord or brain. The spinal cord transmits nerve signals and the brain interprets the signals.

After age 50, many people have reduced sensitivity to pain. Or you may feel and recognize pain, but it does not bother you. For example, when you are injured, you may not know how severe the injury is because the pain does not trouble you.

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TactileChallenges

Older persons can develop an increased sensitivity to light touch because of thinner skin.

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TactileChallengesAvoid reflective surfaces

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TactileChallengesUtilize Materials with texture

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Multi-SensoryDesignSolutions

It also appears that additional brain regions can be activated in older adults during cognitive tasks, such as taking a memory test. Researchers do not fully understand why this happens, but one idea is that the brain engages mechanisms to compensate for difficulties that certain regions may be having. For example, the brain may recruit alternate brain networks in order to perform a task.

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Multi-SensoryDesignSolutions

Multisensory integration becomes more important during aging as it helps to counteract the often-destructive consequences of unisensorydeterioration. Mozolic et al. (2012)

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Auditory and Visual Solutions

Use vision and sounds to direct.

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Auditory and Visual Solutions

Use vision and sounds to direct.

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Tactile and Visual Solutions

Use vision and tactile to direct.

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Solutions

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Solutions

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Solutions

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Solutions

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Solutions

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Solutions

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Solutions

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SolutionsCulturally Sensitive

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SolutionsCulturally Sensitive

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SolutionsCulturally Sensitive

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SolutionsCulturally Sensitive

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The Concept of

“Sensthetics”

A “Sensthetic Model” – is a conceptual tool to think “across” modalities that can help professionals and students to design, study or experience sensory environments. It is a step beyond the aesthetics of appearance, towards a Sensthetics of Experience.

Nanda, 2008

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